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US11432861B2 - Self-holding screw head - Google Patents

Self-holding screw head
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Publication number
US11432861B2
US11432861B2US16/518,110US201916518110AUS11432861B2US 11432861 B2US11432861 B2US 11432861B2US 201916518110 AUS201916518110 AUS 201916518110AUS 11432861 B2US11432861 B2US 11432861B2
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screw
head
threaded
threaded head
insertion system
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US20190336187A1 (en
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Nils Zander
Manfred Wieland
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Stryker European Operations Holdings LLC
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Stryker European Operations Holdings LLC
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Assigned to STRYKER TRAUMA GMBHreassignmentSTRYKER TRAUMA GMBHASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS).Assignors: WIELAND, MANFRED, ZANDER, NILS
Assigned to STRYKER EUROPEAN HOLDINGS I, LLCreassignmentSTRYKER EUROPEAN HOLDINGS I, LLCASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS).Assignors: STRYKER TRAUMA GMBH
Publication of US20190336187A1publicationCriticalpatent/US20190336187A1/en
Assigned to STRYKER EUROPEAN OPERATIONS HOLDINGS LLCreassignmentSTRYKER EUROPEAN OPERATIONS HOLDINGS LLCCHANGE OF NAME (SEE DOCUMENT FOR DETAILS).Assignors: STRYKER EUROPEAN HOLDINGS III, LLC
Assigned to STRYKER EUROPEAN HOLDINGS III, LLCreassignmentSTRYKER EUROPEAN HOLDINGS III, LLCNUNC PRO TUNC ASSIGNMENT (SEE DOCUMENT FOR DETAILS).Assignors: STRYKER EUROPEAN HOLDINGS I, LLC
Priority to US17/851,311prioritypatent/US11925399B2/en
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Priority to US18/433,805prioritypatent/US12324614B2/en
Assigned to STRYKER EUROPEAN OPERATIONS HOLDINGS LLCreassignmentSTRYKER EUROPEAN OPERATIONS HOLDINGS LLCCHANGE OF ADDRESSAssignors: STRYKER EUROPEAN OPERATIONS HOLDINGS LLC
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Abstract

A screw insertion system has a screw having a threaded shaft and a head. The head has a conically tapered outer surface, the taper increasing in distance from a central longitudinal axis of the screw from a free end of the head towards a larger diameter adjacent the connection between the head and the threaded shaft. The conically tapered head outer surface has preferably two helically extending partially rounded threads. The head has a drive element for engaging a driver. A tubular screw holder has an outer surface and internal bore extending between a leading end and a trailing end for receiving the screw. The leading end having a conically tapered inner threaded portion for engaging the conically tapered outer thread of the screw head. The tubular screw holder outer surface having a diameter less than or equal to the maximum diameter of the conically tapered head.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS
The present application is a continuation of U.S. application Ser. No. 15/399,233, filed Jan. 5, 2017, the disclosure of which is hereby incorporated herein by reference in its entirety.
BACKGROUND OF THE INVENTION
During intramedullary nailing (IM) surgery it is of importance (especially in a freehand locking screw insertion procedure through large soft tissue coverage) to firmly fix the locking screw to the screw driver to avoid dropping and mis-angulating the locking screw. Present solutions are self-holding screw drivers which suffer from insufficient holding forces and susceptibility to deflexion caused by bending moment.
The screw head of the present invention offers a conical or spherical shape with an integrated external multiple, preferably triple thread (preferably a round thread and left-handed thread) which eases the adaptation of an external sleeve with internal thread. The external sleeve is guided/axially constrained by the screw driver shaft creating firm connection between sleeve and screw. Due to the conical/spherical design the outer diameter of the assembled screw head and sleeve construct does not exceed the maximum outer diameter of screw head and can be used through existing tissue protection sleeve systems. The transmission of the required torque remains utilizing the internal hex of the screw solely.
Compared to the already existing solutions the design of the present invention offers a more rigid connection under all loading conditions.
SUMMARY OF THE INVENTION
The present invention is a system having a screw with a threaded head, a tissue protection sleeve with an internal thread and a screw driver.
At the distal end of the screw is a threaded shaft having a first thread adapted to extend through the nail and engage the bone surrounding the IM canal. At the proximal end of the screw, there is formed on a screw head an outer thread, which extends preferably only a few millimeters along the screw head in the direction along the central axis of the screw. This second thread is a different kind of a thread compared with the first thread, since the second thread is adapted to engage with the tissue protection sleeve inner thread. To avoid negative interdependencies like irritations or lesions, between the second outer thread and tissue surrounding the bone, the outer contour of the windings are flattened or rounded so as to have a smooth contact area.
The second outer thread is adapted to be connected to an internal threaded tissue protection sleeve, wherein, the sleeve is supported at the proximal end of the screw by means of the second thread.
Furthermore, the proximal end of the screw includes an inner drive tool engagement portion. This means that the screw is coupled with a driver having a corresponding driving end. This driving end may be a hexagonal or a TORX® drive, wherein the driver may also be a wrench. It is noted that the driver may also be driven by a power source including an electric, pneumatic or other suitable mechanism.
The outer diameter of the second thread tapers outwardly from the central axis of the screw on moving along the head toward the distal end of the screw including the first thread. The second thread has a greater diameter than an outer diameter of the screw shaft. Therefore, a step will be formed between the second thread at the proximal end and the first thread of the shaft. According to that embodiment, the screw further comprises a distally facing annular surface between the second thread and the first thread shaft to provide a smooth junction or shoulder between the head second thread and the shaft first thread. Alternately, the distally facing surface may be formed as a part-spherical head portion with the part-spherical surface facing the distal end of the screw.
For the case of an implantation of a screw into a bone, a set or system for installation of the screw according to the invention comprises, beside the screw as described above, a driving tool adapted to engage with the inner tool engagement portion of the screw, and a hollow tissue protection sleeve adapted to engage with the second outer thread of the screw.
The tissue protection sleeve is a kind of a lengthening piece, which may be suitable to facilitate the introduction of the screw into a bone, wherein muscles or other tissue surrounding the bone will complicate the attachment of an augmentation tool directly at the proximal end of the screw.
With two separate elements, i.e. the sleeve and the driver, each engaging directly at the proximal (head) end of the screw, it is possible to apply forces indifferent directions precisely onto the screw, so that the screw may be positioned accurately at an appropriate site. With the driver, forces in circumferential direction may be applied to screw in (or out for explanation) the screw. With the sleeve, forces in an axial or a radial direction may be applied to the screw. As another advantage, the screw may be held in place by the screw driver while the tissue protection sleeve is loosened and removed from the proximal end of the screw.
A screw insertion system includes a screw having a leading end having a threaded shaft and a head at a trailing end. The head has a first diameter at a free end and a second diameter at an end connected to the threaded shaft. The first diameter being less than the second diameter. The head has an outer surface with a plurality of external helical threads extending from the first to the second end thereof. The head also has a drive element located within the first diameter open to the free end of the head. A screw holder or sleeve is provided and has a through bore with a trailing end. An interior surface at the leading end of the screw holder has a helically threaded portion, the thread portion having a first diameter located towards the trailing end of the holder and a second diameter at the leading end of the holder. The second diameter is greater than the first diameter, the second diameter of the holder generally equal to the second diameter of the bone screw head. A screw driver extends through the tubular screw holder and is engagable with the drive element on the screw head.
The screw head preferably has a conical outer shape between the first and second diameter of the head, and the threaded portion of the interior surface of the screw holder threaded portion has a matching conical shape. The screw head may have a part-spherical distally facing outer shape between the first and second diameters of the head.
The external threads of the head and the interior threads of the screw holder preferably are at least partially rounded threads. The at least partially rounded threads have rounded roots and flattened crests. Preferably the threads on the head and on the screw holder are left-handed threads.
The screw driver has an outer diameter small enough to be received within the bore of the screw holder preferably with a close fit. Preferably the outer diameter of the screw holder does not exceed the second diameter of the screw head so that a smooth transition is formed. The drive element of the bone screw head may be an internal hex drive. The conical outer shape of the head preferably has an opening angle of about 20°. Other aspects of the present invention are obtained by a screw insertion system including a screw having a threaded shaft and a head connected to the threaded shaft. The head has a conically tapered outer surface. The tapered surface increasing in distance from a central longitudinal axis of the screw from a free end of the head towards a larger diameter adjacent the connection between the head and the threaded shaft. The conically tapered head outer surface has at least two helically extending partially rounded threads. The screw head also has a recessed drive element open to the free end of the head. A tubular screw holder is provided having an outer surface and internal bore extending between a leading end and a trailing end for receiving the screw. The leading end has a conically tapered inner threaded portion for engaging the conically tapered outer thread of the screw head. The tubular screw holder outer surface having a diameter less than the maximum diameter of the conically tapered head. A screw driver is provided extending through the base in the tubular screw holder for engaging the recessed drive element in the screw head. Preferably, the threads on the head and on the screw holder are left-handed threads.
The system of the present invention includes a bone fastener. Preferably the bone fastener has a shaft at a leading end and a head connected to the shaft at a trailing end. The head having a first diameter at a free end and a second diameter at an end connected to the shaft. The first diameter is less than the second diameter with, the head having an outer surface extending between the first and second diameter. The head outer surface comprising a plurality of helical threads extending around the outer surface. Preferably each thread has curved flanks and a curved root intermediate the curved flanks with the threads having a flat crest on the outer surface of the head extending between adjacent curved flanks forming the thread.
The bone fastener shaft has a threaded portion at the leading end and the head outer surface has a conical shape. The conical shape of the head preferably has an opening angle of 18° to 22°. Preferably the threads on the head are left-hand threads, and are double or triple lead threads.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a cross-sectional view of the bone screw insertion system of the presentation invention showing a bone screw, a tissue protection sleeve, and a screw driver;
FIG. 1A is an enlarged view of the coupling between the tissue protection sleeve, bone screw head, and screw driver of the present invention as shown inFIG. 1;
FIG. 2 is an isometric view of the bone screw ofFIG. 1;
FIG. 2A is a side view of the screw ofFIG. 2;
FIG. 3 is a view of the threaded head of the bone screw ofFIG. 2;
FIG. 4 is a cross-sectional view of the bone screw ofFIG. 2;
FIG. 5 is an enlarged view of the hex drive of the bone screw ofFIG. 2;
FIG. 6 is a cross-sectional view of the tissue protection sleeve of the present invention;
FIG. 7 is an enlarged view of the distal end of the tissue protection sleeve of the present invention; and
FIGS. 8A and 8B (in cross-section) show an alternate distal end for the tissue protection sleeve wherein the distal end of the sleeve can flex with respect to the axis of the bone screw.
DETAILED DESCRIPTION
Referring toFIG. 1 there is shown the screw insertion system of the present invention generally denoted as10. The screw insertion system includes ascrew12, a sleeve orholder14 for connecting to screw12, and adriver16 with shaft17. In thepreferred embodiment screw12 is a bone screw, andsleeve14 is a tissue protection sleeve used for inserting the threaded screw into a bone plate or bone nail (not shown).Driver16 can be any standard screw driver having a leading distal end with astandard screw drive18, such as a hex drive or a Torx® drive.Drive18 is adapted to engage a socket orrecess20 in ahead22 ofscrew12. Preferably screw12 has ahead22 withthreads23 and a threadedshaft25.Head32 is adapted engage thethreads26 ofinternal surface24 at a distal end oftissue protection sleeve14.Threads23 taper inwardly on moving away in a proximal direction from the bone screw threads onshaft25.
Referring toFIG. 1A there is an enlarged view of the engagement betweentissue protection sleeve14,screw head22,driver16 andsocket20. It can be seen fromFIG. 1A that thedistal end24 ofsleeve14 includes a plurality of threads along a threadedinner diameter26. At thedistal end24inner diameter threads26 taper outwardly fromcentral axis28 of thebone screw sleeve14 preferably in a conical manner. The distal threaded distal endinner surface24 ofsleeve14 preferably includesflat root areas30 andflat crests31 along the outwardly tapered surface ofinner surface26 ofsleeve14.Screw head22 has roundedroots33 andflat crests35. The outer diameter27 at the leading end of the sleeve is substantially equal to the largest thread diameter ofhead22 which is located adjacent toshaft25. While the diameters do not have to be exactly equal a large step is to be avoided so that surrounding tissue is not irritated during insertion.
Referring toFIGS. 2 and 2A, there is shownbone screw12 withhead22 andshaft25 withthreads32. Thethreads32 ofbone screw12 include a helical thread adapted to engage bone and may or may not have a self-drilling feature34 adjacent adistal tip36. Thethreads32 ofbone screw12 may be any typical threads used for bone screws. Atransition area37 extends between thehead22 andshaft25.
Sleeve14 has aninner diameter52 which receives an outer surface of driver shaft17. These surfaces may be a close fit to permit sliding engagement.
Referring toFIG. 3, there is shown an enlarged view ofhead22 which tapers outwardly fromcentral axis28 at an angle α. Angle α is preferably 9 to 10° thus making the cone angle of the taperinghead18 to 20°. Thehead22 includeshelical thread40 which preferably has an arcuate root-shape33 separated by a flattenedcrest35 as best shown inFIG. 1A. Theroot33 may have a circular shape of, for example, a radius of 0.6 to 0.8 mm. The threaded depth from thecrest35 to the bottom of theroot33 may be, for example, 0.14 mm. The threads are preferably a double or triple lead thread, and are left-handed, whereas, the threads of the bone screw shaft are right-handed. As shown inFIG. 3, the head has anannular surface48 facing the distal end of the screw (i.e. towards tip36)
Referring toFIGS. 4 and 5, there is shown a cross-section ofbone screw12 including thebone screw shaft25 and inparticular head22, which includes ahex socket20 for receiving thedrive end18 of thescrew driver16.FIG. 5 shows theflat sides42 ofhex socket20.Socket20, as shown, is adapted to receive a standard hex drive from an Allen wrench or screw driver. A TORX® drive or other polygonal drive could be used.
Referring toFIGS. 6 and 7 there is showntissue protection sleeve14 including threadeddistal end24 including threadedinner diameter26, which tapers outwardly fromcenterline28. Threadeddiameter26 tapers outwardly at the same angle that screwthreads23 are tapered inwardly towards the head free end i.e., for example, 10°. Thus, the entire distal opening of the sleeve tapers outwardly on moving distally at an included angle of 20°. In order to more easily engage and disengage fromhead22 ofscrew12, thethreads26, as shown inFIG. 1A, have flat crests and flat roots. The crests are spaced such that they engage the deepest root area of circular orarcuate threads33. These thread shapes produce less friction so that the tissue protection sleeve may be more easily removed from the head of the screw after implantation.
Referring toFIG. 3, in the preferred embodiment,head22 includes adistally facing surface37 which inFIG. 4 is annularplanar surface48.Surface48 may be connected to screwshaft25 by anarcuate portion50 which, in the preferred embodiment, is concave. However, thisconnection portion50 could be convex and have a part-spherical shape around the entire circumference of the junction betweenshaft25 and screwhead22. This would allow for polyaxial movement of the screw as, for example, when implanted in a bone plate (not shown).
In use the surgeon threadably couples the sleeve or screwholder14 to the head of22 ofscrew52 so that the outer diameter27 is flush or nearly flush with the largest thread diameter ofhead22. The surgeon then inserts thedriver16 throughsleeve14 into thedrive18 ofscrew12.Screw12 is then inserted into the bone. Thesleeve14 can be removed by rotating an exposed end ofsleeve14 in the direction of screw rotation because of the opposite left and right threads on thebone screw head22 andshaft25.
The sleeve may have a smaller outer diameter (OD), for example 7 mm and have markings near the grip which indicate when to stop turning, it may also have slotted structures to allow for “gripping” even when screws are inserted in a non-axial fashion. In other words, the distal end ofsleeve14 can flex slightly when the screw axis is angled with respect to the sleeve axis. Such structures are shown in U.S. Pat. No. 6,337,142, the disclosure of which is incorporated herein by reference. Such a structure is shown inFIGS. 8A and 8B which has a plurality ofslots200 spaced around the circumference of the tissue protection sleeve.
The sleeve may have a larger OD, for example 9 mm. The reason for the larger diameter of 9 mm is that especially for axially stable screws such a larger diameter increases the contact area between the tool tip and screw head which respectively improves the tactile sensation for the operator. This is important as the operator needs to know and feel when to stop turning (when the screw head hits the bone surface). With the larger diameter the sleeve distal end will be larger than the screw head diameter by 1 to 2 mm.
Although the invention herein has been described with reference to particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles and applications of the present invention. It is therefore to be understood that numerous modifications may be made to the illustrative embodiments and that other arrangements may be devised without departing from the spirit and scope of the present invention as defined by the appended claims.

Claims (15)

The invention claimed is:
1. A screw insertion system comprising:
a screw having a threaded head and a shaft extending from the threaded head; and
a screw holder with an annular wall defining an internal bore,
wherein the annular wall of the screw holder has a first outer surface with a maximum diameter,
wherein the threaded head has a second threaded outer surface extending from a first end of the threaded head remote from the shaft to a second end of the threaded head abutting the shaft, a maximum diameter of the second threaded outer surface being at the second end,
wherein a diameter of the screw decreases in a distal direction from the second end of the threaded head over at least part of a distance beginning from the second end toward a threaded portion on the shaft,
wherein the maximum diameter of the second threaded outer surface is approximately equal to or greater than the maximum diameter of the first outer surface, and
wherein the screw holder is engageable with the screw at a location on the threaded head having a diameter that is approximately equal to the maximum diameter of the first outer surface.
2. The screw insertion system ofclaim 1, wherein when the screw holder is engaged with the screw, part of the threaded head is located outside of the internal bore.
3. The screw insertion system ofclaim 1, wherein the annular wall has a first portion and a second portion adjacent to the first portion, the first portion having a constant thickness and the second portion having a variable thickness that tapers from a third end abutting the first portion to a fourth end remote from the first portion.
4. The screw insertion system ofclaim 3, wherein the annular wall includes an inner surface that converges with the first outer surface of the annular wall at the fourth end of the second portion.
5. The screw insertion system ofclaim 1, wherein the maximum diameter of the first outer surface of the annular wall is approximately equal to the maximum diameter of the second threaded outer surface such that when the screw holder is engaged with the screw, the first outer surface and the second threaded outer surface are flush with one another.
6. The screw insertion system ofclaim 1, wherein the maximum diameter of the second threaded outer surface is greater than the maximum diameter of the first outer surface.
7. The screw insertion system ofclaim 1, wherein the threaded head is continuously threaded from the first end to the second end.
8. The screw insertion system ofclaim 1, wherein the maximum diameter of the first outer surface is approximately 7 mm.
9. The screw insertion system ofclaim 1, wherein the annular wall of the screw holder includes a plurality of circumferentially oriented slots therein such that a first portion of the annular wall with one or more of the plurality of circumferentially oriented slots is more flexible than a second portion of the annular wall without any of the plurality of circumferentially oriented slots.
10. A screw insertion system comprising:
a screw having a threaded head and a shaft connected to and extending from the threaded head, a central axis of the screw extending through the shaft; and
a screw holder with an inner surface defining an internal bore, a length of the screw holder being aligned with the central axis of the screw, wherein the threaded head has an threaded outer surface that is engageable with the inner surface of the screw holder, each of the threaded outer surface and the inner surface being non-parallel to the central axis, and
wherein the threaded outer surface of the threaded head and the inner surface of the screw holder, when engaged, face one another.
11. The screw insertion system ofclaim 10, wherein the threaded head extends from a free first end thereof to a second end abutting the shaft, the threaded head having a first diameter at the first end and a second diameter at the second end, the second diameter being larger than the first diameter.
12. The screw insertion system ofclaim 11, wherein the threaded head has a conical shape.
13. The screw insertion system ofclaim 11, wherein the threaded head includes an opening angle at the first end, the opening angle being between 18° to 22°.
14. A method of using the screw insertion system ofclaim 10 comprising:
threadably coupling the screw holder to the threaded head of the screw by rotating the screw holder in a first direction onto the threaded head of the screw;
inserting a driver through the screw holder and into a drive element in the threaded head to engage the driver with the screw; and
rotating the driver in a second direction while engaged to the screw to drive the screw into a bone.
15. The method ofclaim 14, further comprising removing the screw holder from the screw by rotating the screw holder in the second direction with respect to the screw.
US16/518,1102017-01-052019-07-22Self-holding screw headActive2038-03-01US11432861B2 (en)

Priority Applications (3)

Application NumberPriority DateFiling DateTitle
US16/518,110US11432861B2 (en)2017-01-052019-07-22Self-holding screw head
US17/851,311US11925399B2 (en)2017-01-052022-06-28Self-holding screw head
US18/433,805US12324614B2 (en)2017-01-052024-02-06Self-holding screw head

Applications Claiming Priority (2)

Application NumberPriority DateFiling DateTitle
US15/399,233US10426535B2 (en)2017-01-052017-01-05Self-holding screw head
US16/518,110US11432861B2 (en)2017-01-052019-07-22Self-holding screw head

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US15/399,233ContinuationUS10426535B2 (en)2017-01-052017-01-05Self-holding screw head

Related Child Applications (1)

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US17/851,311ContinuationUS11925399B2 (en)2017-01-052022-06-28Self-holding screw head

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US20190336187A1 US20190336187A1 (en)2019-11-07
US11432861B2true US11432861B2 (en)2022-09-06

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US15/399,233Active2037-10-08US10426535B2 (en)2017-01-052017-01-05Self-holding screw head
US16/518,110Active2038-03-01US11432861B2 (en)2017-01-052019-07-22Self-holding screw head
US17/851,311ActiveUS11925399B2 (en)2017-01-052022-06-28Self-holding screw head
US18/433,805ActiveUS12324614B2 (en)2017-01-052024-02-06Self-holding screw head

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US17/851,311ActiveUS11925399B2 (en)2017-01-052022-06-28Self-holding screw head
US18/433,805ActiveUS12324614B2 (en)2017-01-052024-02-06Self-holding screw head

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US (4)US10426535B2 (en)
EP (2)EP3345561B1 (en)
JP (1)JP6677704B2 (en)
CN (1)CN108272500A (en)
AU (1)AU2017279730B2 (en)
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US11925399B2 (en)2024-03-12
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